package faac.util;

/**
* CodepagePrintStream.java
*
* Copyright (C) 1998-2000 COMITA Ltd. All Rights Reserved.
*/
import java.io.*;

/**
* Класс реализует методы PrintStream с возможностью работы в нужной кодировке.
*
* Обычно используется для замены стандартных System.out и System.err:
* <pre>
*  public static void main(String[] args)
*  {
*   // Установка вывода консольных сообщений в нужной кодировке
*   try
*     {
*      System.setOut(new CodepagePrintStream(System.out,System.getProperty("console.encoding","Cp866")) );
*     }
*   catch(UnsupportedEncodingException e)
*     {
*      Msg.message(Msg.ALERT,"Unable to setup console codepage: " + e);
*      Msg.printStackTrace(Msg.ALERT,e);
*     }
* </pre>
*
* @author Sergey Astakhov
* @version 1.01, 24.07.2000
*/
public class CodepagePrintStream extends PrintStream
{
 public CodepagePrintStream(OutputStream os,String cp) throws UnsupportedEncodingException
 {
  super(os);

  this.autoFlush = false;
  this.charOut = new OutputStreamWriter(this,cp);
  this.textOut = new BufferedWriter(this.charOut);
 }

 private boolean autoFlush = false;
 private boolean trouble = false;

 /**
  * Track both the text- and character-output streams, so that their buffers
  * can be flushed without flushing the entire stream.
  */
 private BufferedWriter textOut;
 private OutputStreamWriter charOut;

    /** Check to make sure that the stream has not been closed */
    private void ensureOpen() throws IOException {
	if (out == null)
	    throw new IOException("Stream closed");
    }

    /**
     * Flush the stream.  This is done by writing any buffered output bytes to
     * the underlying output stream and then flushing that stream.
     *
     * @see        java.io.OutputStream#flush()
     */
    public void flush() {
	synchronized (this) {
	    try {
		ensureOpen();
		out.flush();
	    }
	    catch (IOException x) {
		trouble = true;
	    }
	}
    }

    private boolean closing = false; /* To avoid recursive closing */

    /**
     * Close the stream.  This is done by flushing the stream and then closing
     * the underlying output stream.
     *
     * @see        java.io.OutputStream#close()
     */
    public void close() {
	synchronized (this) {
	    if (! closing) {
		closing = true;
		try {
		    textOut.close();
		    out.close();
		}
		catch (IOException x) {
		    trouble = true;
		}
		textOut = null;
		charOut = null;
		out = null;
	    }
	}
    }

    /**
     * Flush the stream and check its error state.  The internal error state
     * is set to <code>true</code> when the underlying output stream throws an
     * <code>IOException</code> other than <code>InterruptedIOException</code>,
     * and when the <code>setError</code> method is invoked.  If an operation
     * on the underlying output stream throws an
     * <code>InterruptedIOException</code>, then the <code>PrintStream</code>
     * converts the exception back into an interrupt by doing:
     * <pre>
     *     Thread.currentThread().interrupt();
     * </pre>
     * or the equivalent.
     *
     * @return True if and only if this stream has encountered an
     *         <code>IOException</code> other than
     *         <code>InterruptedIOException</code>, or the
     *         <code>setError</code> method has been invoked
     */
    public boolean checkError() {
	if (out != null)
	    flush();
	return trouble;
    }

    /**
     * Set the error state of the stream to <code>true</code>.
     *
     * @since JDK1.1
     */
    protected void setError() {
	trouble = true;
    }


    /*
     * Exception-catching, synchronized output operations,
     * which also implement the write() methods of OutputStream
     */

    /**
     * Write the specified byte to this stream.  If the byte is a newline and
     * automatic flushing is enabled then the <code>flush</code> method will be
     * invoked.
     *
     * <p> Note that the byte is written as given; to write a character that
     * will be translated according to the platform's default character
     * encoding, use the <code>print(char)</code> or <code>println(char)</code>
     * methods.
     *
     * @param  b  The byte to be written
     * @see #print(char)
     * @see #println(char)
     */
    public void write(int b) {
	try {
	    synchronized (this) {
		ensureOpen();
		out.write(b);
		if ((b == '\n') && autoFlush)
		    out.flush();
	    }
	}
	catch (InterruptedIOException x) {
	    Thread.currentThread().interrupt();
	}
	catch (IOException x) {
	    trouble = true;
	}
    }

    /**
     * Write <code>len</code> bytes from the specified byte array starting at
     * offset <code>off</code> to this stream.  If automatic flushing is
     * enabled then the <code>flush</code> method will be invoked.
     *
     * <p> Note that the bytes will be written as given; to write characters
     * that will be translated according to the platform's default character
     * encoding, use the <code>print(char)</code> or <code>println(char)</code>
     * methods.
     *
     * @param  buf   A byte array
     * @param  off   Offset from which to start taking bytes
     * @param  len   Number of bytes to write
     */
    public void write(byte buf[], int off, int len) {
	try {
	    synchronized (this) {
		ensureOpen();
		out.write(buf, off, len);
		if (autoFlush)
		    out.flush();
	    }
	}
	catch (InterruptedIOException x) {
	    Thread.currentThread().interrupt();
	}
	catch (IOException x) {
	    trouble = true;
	}
    }

    /*
     * The following private methods on the text- and character-output streams
     * always flush the stream buffers, so that writes to the underlying byte
     * stream occur as promptly as with the original PrintStream.
     */

    private void write(char buf[]) {
	try {
	    synchronized (this) {
		ensureOpen();
		textOut.write(buf);
		textOut.flush();
		charOut.flush();
		if (autoFlush) {
		    for (int i = 0; i < buf.length; i++)
			if (buf[i] == '\n')
			    out.flush();
		}
	    }
	}
	catch (InterruptedIOException x) {
	    Thread.currentThread().interrupt();
	}
	catch (IOException x) {
	    trouble = true;
	}
    }

    private void write(String s) {
	try {
	    synchronized (this) {
		ensureOpen();
		textOut.write(s);
		textOut.flush();
		charOut.flush();
		if (autoFlush && (s.indexOf('\n') >= 0))
		    out.flush();
	    }
	}
	catch (InterruptedIOException x) {
	    Thread.currentThread().interrupt();
	}
	catch (IOException x) {
	    trouble = true;
	}
    }

    private void newLine() {
	try {
	    synchronized (this) {
		ensureOpen();
		textOut.newLine();
		textOut.flush();
		charOut.flush();
		if (autoFlush)
		    out.flush();
	    }
	}
	catch (InterruptedIOException x) {
	    Thread.currentThread().interrupt();
	}
	catch (IOException x) {
	    trouble = true;
	}
    }


    /* Methods that do not terminate lines */

    /**
     * Print a boolean value.  The string produced by <code>{@link
     * java.lang.String#valueOf(boolean)} is translated into bytes according to
     * the platform's default character encoding, and these bytes are written
     * in exactly the manner of the <code>{@link #write(int)} method.
     *
     * @param      b   The <code>boolean</code> to be printed
     */
    public void print(boolean b) {
	write(b ? "true" : "false");
    }

    /**
     * Print a character.  The character is translated into one or more bytes
     * according to the platform's default character encoding, and these bytes
     * are written in exactly the manner of the <code>{@link #write(int)}
     * method.
     *
     * @param      c   The <code>char</code> to be printed
     */
    public void print(char c) {
	write(String.valueOf(c));
    }

    /**
     * Print an integer.  The string produced by <code>{@link
     * java.lang.String#valueOf(int)} is translated into bytes according to the
     * platform's default character encoding, and these bytes are written in
     * exactly the manner of the <code>{@link #write(int)} method.
     *
     * @param      i   The <code>int</code> to be printed
     */
    public void print(int i) {
	write(String.valueOf(i));
    }

    /**
     * Print a long integer.  The string produced by <code>{@link
     * java.lang.String#valueOf(long)} is translated into bytes according to
     * the platform's default character encoding, and these bytes are written
     * in exactly the manner of the <code>{@link #write(int)} method.
     *
     * @param      l   The <code>long</code> to be printed
     */
    public void print(long l) {
	write(String.valueOf(l));
    }

    /**
     * Print a floating-point number.  The string produced by <code>{@link
     * java.lang.String#valueOf(float)} is translated into bytes according to
     * the platform's default character encoding, and these bytes are written
     * in exactly the manner of the <code>{@link #write(int)} method.
     *
     * @param      f   The <code>float</code> to be printed
     */
    public void print(float f) {
	write(String.valueOf(f));
    }

    /**
     * Print a double-precision floating-point number.  The string produced by
     * <code>{@link java.lang.String#valueOf(double)} is translated into bytes
     * according to the platform's default character encoding, and these bytes
     * are written in exactly the manner of the <code>{@link #write(int)}
     * method.
     *
     * @param      d   The <code>double</code> to be printed
     */
    public void print(double d) {
	write(String.valueOf(d));
    }

    /**
     * Print an array of characters.  The characters are converted into bytes
     * according to the platform's default character encoding, and these bytes
     * are written in exactly the manner of the <code>{@link #write(int)}
     * method.
     *
     * @param      s   The array of chars to be printed
     * 
     * @throws  NullPointerException  If <code>s</code> is <code>null</code>
     */
    public void print(char s[]) {
	write(s);
    }

    /**
     * Print a string.  If the argument is <code>null</code> then the string
     * <code>"null"</code> is printed.  Otherwise, the string's characters are
     * converted into bytes according to the platform's default character
     * encoding, and these bytes are written in exactly the manner of the
     * <code>{@link #write(int)} method.
     *
     * @param      s   The <code>String</code> to be printed
     */
    public void print(String s) {
	if (s == null) {
	    s = "null";
	}
	write(s);
    }

    /**
     * Print an object.  The string produced by the <code>{@link
     * java.lang.String#valueOf(Object)} method is translated into bytes
     * according to the platform's default character encoding, and these bytes
     * are written in exactly the manner of the <code>{@link #write(int)}
     * method.
     *
     * @param      obj   The <code>Object</code> to be printed
     */
    public void print(Object obj) {
	write(String.valueOf(obj));
    }


    /* Methods that do terminate lines */

    /**
     * Terminate the current line by writing the line separator string.  The
     * line separator string is defined by the system property
     * <code>line.separator</code>, and is not necessarily a single newline
     * character (<code>'\n'</code>).
     */
    public void println() {
	newLine();
    }

    /**
     * Print a boolean and then terminate the line.  This method behaves as
     * though it invokes <code>{@link #print(boolean)} and then <code>{@link
     * #println()}</code>.
     */
    public void println(boolean x) {
	synchronized (this) {
	    print(x);
	    newLine();
	}
    }

    /**
     * Print a character and then terminate the line.  This method behaves as
     * though it invokes <code>{@link #print(char)} and then <code>{@link
     * #println()}</code>.
     */
    public void println(char x) {
	synchronized (this) {
	    print(x);
	    newLine();
	}
    }

    /**
     * Print an integer and then terminate the line.  This method behaves as
     * though it invokes <code>{@link #print(int)} and then <code>{@link
     * #println()}</code>.
     */
    public void println(int x) {
	synchronized (this) {
	    print(x);
	    newLine();
	}
    }

    /**
     * Print a long and then terminate the line.  This method behaves as
     * though it invokes <code>{@link #print(long)} and then <code>{@link
     * #println()}</code>.
     */
    public void println(long x) {
	synchronized (this) {
	    print(x);
	    newLine();
	}
    }

    /**
     * Print a float and then terminate the line.  This method behaves as
     * though it invokes <code>{@link #print(float)} and then <code>{@link
     * #println()}</code>.
     */
    public void println(float x) {
	synchronized (this) {
	    print(x);
	    newLine();
	}
    }

    /**
     * Print a double and then terminate the line.  This method behaves as
     * though it invokes <code>{@link #print(double)} and then <code>{@link
     * #println()}</code>.
     */
    public void println(double x) {
	synchronized (this) {
	    print(x);
	    newLine();
	}
    }

    /**
     * Print an array of characters and then terminate the line.  This method
     * behaves as though it invokes <code>{@link #print(char[])} and then
     * <code>{@link #println()}</code>.
     */
    public void println(char x[]) {
	synchronized (this) {
	    print(x);
	    newLine();
	}
    }

    /**
     * Print a String and then terminate the line.  This method behaves as
     * though it invokes <code>{@link #print(String)} and then <code>{@link
     * #println()}</code>.
     */
    public void println(String x) {
	synchronized (this) {
	    print(x);
	    newLine();
	}
    }

    /**
     * Print an Object and then terminate the line.  This method behaves as
     * though it invokes <code>{@link #print(Object)} and then <code>{@link
     * #println()}</code>.
     */
    public void println(Object x) {
	synchronized (this) {
	    print(x);
	    newLine();
	}
    }
}

